将秋葵(Abelmoschus esculentus L.)茎秆中的纤维素纳米晶(CNC)作为仿生复合材料制造中的增强材料:提取、加工和表征研究

Md.Mahmudur Rahman , Md.Ismail Hossain , Md.Mahafujul Hassan , Bijoy Chandra Ghos , Md.Saifur Rahman , Md.Abdul Gafur , Md.Ashraful Alam , Md.Khalid Al Zuhanee
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引用次数: 0

摘要

目前,氯化萘因其出色的物理化学、热力学、形态学特性和生态友好性质,吸引着研究人员制造多功能仿生复合材料。而在大多数情况下,氯化萘是从初级植物的韧皮部/树皮中提取的,而初级植物的韧皮部/树皮在多个领域都有其他有益的应用。因此,找到氯化萘的替代来源以减少对原生植物的额外压力至关重要。而秋葵茎秆这种无用的农业废弃物生物质将成为生产氯化萘的一种新的有益替代品。在此,我们通过一系列化学反应生产出氯化萘。样品通过傅立叶变换红外-原子吸收光谱(FTIR-ATR)、热重分析(TGA)/热重分析(DTA)、外延电子显微镜(FESEM)、电离辐射分析(EDX)、X射线衍射(XRD)、紫外-可见-近红外(UV-vis-NIR)和光致发光(DLS)分析进行表征。结果表明,新制备的 CNC 具有大量的活性官能团(-OH、CO-C、-NH)、高热稳定性、较高的结晶度(86.09±0.001 %)以及显著的微观结构,表明其表面具有组织良好的多孔性和令人鼓舞的球形。这些 CNC 不含杂质和着色材料,而且表面电荷为负,粒径较小。可以说,生产出的 CNC 与可持续发展的环境十分吻合,可用作制造仿生复合材料的增强剂。此外,它还是化石基有害物质的可持续替代品,可用于多种用途。
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Cellulose nanocrystal (CNC) from okra plant (Abelmoschus esculentus L.) stalks as a reinforcement in bionanocomposite fabrication: Extraction, processing, and characterization study
Currently, CNC is attractive to the researchers to fabricate multifunctional bionanocomposite because of their outstanding physicochemical, thermomechanical, morphological properties, and eco-friendly nature. Whereas in most cases CNC is extracted from the bast/bark of primary plants, which have other beneficial applications in several sectors. Hence, it is crucial to find out alternative sources of CNCs to diminish the extra pressure on the primary plants. While the useless agrowaste biomass of okra stalks would be a new and beneficial alternative to produce CNCs as a reinforcement. Here, a series of chemical reactions were directed to produce CNCs. The samples were characterized by FTIR-ATR,TGA/DTA,FESEM,EDX,XRD,UV–vis-NIR, and DLS analysis. The obtained results suggested that the newly produced CNCs possessed substantial active functional groups(–OH,CO-C,–NH), high thermal stability, greater crystallinity(86.09±0.001 %), and notable microstructure indicating a well-organized porous surface with encouraging spherical shapes. The CNCs are free from impurities and coloring materials; additionally, they exhibit a highly negative surface charge and smaller particle sizes. It can be stated that the produced CNCs should have a good agreement with the sustainable environment and be beneficially applied as a reinforcing agent to fabricate bionanocomposites. Also acts as a sustainable alternative to the fossil-based hazardous ones for various uses.
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